Advancing wound healing by hydrogel-based dressings loaded with cell-conditioned medium: a systematic review

Stem Cell Research & Therapy, Journal Year: 2024, Volume and Issue: 15(1)

Published: Oct. 17, 2024

Wound healing represents a complex biological process, critically important in clinical practice due to its direct implication patient's recovery and quality of life. Conservative wound management frequently falls short providing an ideal environment for the optimal tissue regeneration, often resulting extended periods elevated risk infection other complications. The emerging biomaterials, particularly hydrogels, have shown substantial promise addressing these challenges by offering properties such as biocompatibility, biodegradability, ability cure environment. Recent advancements highlighted therapeutic potential integrating cell-derived conditioned medium (CM) into hydrogel matrices. Cell-derived CM rich array bioactive molecules, demonstrating significant efficacy modulating cellular activities crucial healing, including proliferation, migration, angiogenesis.

Language: Английский

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The Potential Application of AZ31-Mg(OH)2/CeO2 as Temporary Medical Implants: Evaluation of the Corrosion Resistance and Biocompatibility Properties

Coatings, Journal Year: 2025, Volume and Issue: 15(4), P. 450 - 450

Published: April 10, 2025

Magnesium-based alloys are considered to be promising materials for the fabrication of temporary bone repair medical implants. The AZ31 magnesium-based (AZ31-Mg) alloy contains 3% aluminum and 1% zinc in its microstructure, which gives it mechanical strength corrosion resistance. Nonetheless, rate is high, can lead implant failure due rapid degradation, triggers release harmful metal ions. In present work, a passive layer was obtained on AZ31-Mg alloy, subsequently, cerium oxide (CeO2) coating deposited through chemical conversion treatment using 0.01 M CeO2 as precursor. Based X-ray photoelectron spectroscopy, calculated amount Ce(IV) Ce(III) AZ31-Mg(OH)2/CeO2 93.6% 6.4%, respectively. showed improved resistance compared with bare sample. vitro assessment MC3T3-E1 pre-osteoblast cell viability that biocompatible after incubation 24 72 h. results revealed confers greater electrochemical stability biocompatibility properties, mostly presence Ce4+

Language: Английский

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Fabrication of polydopamine-altered PCL/PLGA nanofibrous scaffolds on cerium to enhance cytocompatibility, microbial inhibition, and improved osteogenic properties for tissue regeneration in orofacial treatment

Biochemical and Biophysical Research Communications, Journal Year: 2025, Volume and Issue: 766, P. 151852 - 151852

Published: April 18, 2025

Language: Английский

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Nanomaterial‐Integrated 3D Biofabricated Structures for Advanced Biomedical Applications

Macromolecular Materials and Engineering, Journal Year: 2025, Volume and Issue: unknown

Published: May 14, 2025

Abstract In recent times, the integration of nanomaterials into 3D biofabricated structures has become a transformative approach in advancing biomedical field. Nanomaterials exhibit distinctive properties such as superior mechanical strength, enhanced biocompatibility, and improved drug delivery efficiency, making them well‐suited for use. This comprehensive review explores synergistic potential combining nanomaterials—such metallic, carbon‐based, ceramic, polymeric nanoparticles—with advanced biofabrication techniques, including bioprinting, melt electrowriting, electrospinning. These integrations have demonstrated significant promise diverse applications, regeneration nerve, bone, cardiac tissues, wound healing, cancer therapy. Despite substantial progress, several challenges hinder clinical translation, difficulties achieving precise nanomaterial integration, biocompatibility toxicity concerns, scalability manufacturing, regulatory complexities. synthesizes advancements, evaluates existing challenges, identifies key research directions to address these obstacles. It highlights significance interdisciplinary collaboration maximizing nanomaterial‐integrated promoting innovative advancements science healthcare.

Language: Английский

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Electrospinning Technologies for Biomedical and Biotechnological Applications

Technologies, Journal Year: 2024, Volume and Issue: 12(10), P. 173 - 173

Published: Sept. 25, 2024

Electrospinning is a highly versatile and powerful technique that has transformed the field of nanotechnology [...]

Language: Английский

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